W01/1 |
Examining Opposing Requirements for ISFSI Pads When Evaluating Cask Tip-Over
B.P. Tripthi |
W01/2 |
The Role of Semi-Conducting Capacitors in Earthquake Prediction and Protection of Deep Repositories and Other Structures
H. Kianoosh, A. Naderzadeh, H. Kaypoor |
W01/3 |
A Finite Element Based Methodology for Structural Analysis of Ms Liner System in Spent Sub Assembly Storage Bay
K V Subramanian, S M Palekar, H A Mapari, R Balaji |
| W01/4 |
Precautions Arising from the Experimental Campaign on Contaminated Metal Components Parameters for Safely Nuclear Power Plant Components Dismantling
F.G. Cesari, M. Rogante, A. Giostri |
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HW01: Low Activation Reinforced Concrete Program - I |
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| HW1/1 |
Low-Activation Reinforced Concrete Design Methodology (5) – Low-Activation Material Development Support System
N. Kakinuma, M. Satou, S. Nogami, A. Hasegawa, K. Abe, M. Kinno, T. Tanosaki, R. Yoshino
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| HW1/2 |
Low-Activation Reinforced Concrete Design Methodology (LARC) (6) - Development of Low-Activation Cement
K. Ichitsubo, T. Tanosaki, M. Takimoto, K. Miura, A. Hasegawa
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| HW1/3 |
Development of Low-Activation Design Method for Reduction of Radioactive Waste below Clearance Level (7) – Application of High Alumina Cement for Low-Activation Mortar
R. Yoshino, T. Mori, A. Hasegawa, M. Kinno, M. Uematsu, K. Hayashi, M. Nakata |
| HW1/4 |
Low-Activation Reinforced Concrete Design Methodology (9) – Low-Activation Concrete Based on Limestone Aggregates and White Cement
M. Kinno, N. Katayose, K. Kimura, H. Nishida, Y. Fujikura, T. Tanosaki, M. Takimoto, A. Hasegawa |
| HW1/5 |
Low-Activation Reinforced Concrete Design Methodology (10)- Low-Activation Concrete Based on Fused Alumina Aggregates and High Alumina Cement
M. Kinno, H. Nishida, K. Kimura, Y. Fujikura, N. Katayose, R. Yoshino, T. Mori, A. Hasegawa |
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| HW2: Low Activation Reinforced Concrete Program - II |
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| HW2/1 |
Low-Activation Reinforced Concrete Design Methodology (2) – Multi-group X0Sec. Library for Precise Analysis
K. Hayashi, S. Nemezawa, K. Yamaguchi, M. Uematsu. T. Ogata, T. Muramatsu, N. Nakata, M. Kinno, K. Kimura, A. Hasegawa |
| HW2/2 |
Low-Activation Reinforced Concrete Design Methodology (3) – ΣD/C value Reduction by Utilizing Low-Activation Concrete
M. Uematsu, K. Hayashi, S. Nemezawa, M. Kinno, A. Hasegawa |
| HW2/3 |
Low-Activation Reinforced Concrete Design Methodology (4) – Classification System for Radioactive Waste Disposal
T. Ogata, M. Nakata , K. Yamaguchi, K. Hayashi, M. Uematsu, A. Hasegawa |
| HW2/4 |
Low-Activation Reinforced Concrete Design Methodology (12) – Measurement of Residual Radionuclides in Irradiated Low-Activation Concrete
M. Kinno, K. Kimura, K. Okada, M. Nakata, K. Hayashi, M. Uematsu, A. Hasegawa
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| HW2/5 |
Low-Activation Reinforced Concrete Design Methodology (13) –Technology to Produce Low Activation Steel Reinforcing Bars
S. Kitamura, M. Kinno, M. Sakakibara, A. Hasegawa |
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| Seismic Response of Equipment : Spent Fuel and Waste Storage |
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| KW01/1 |
Seismic Stability Analysis for an In-Bay Worktable for Spent Fuel Dry Storage
R. Chen, T. Aziz, J. Biswas, A. Hindy |
| KW01/2 |
Structural Analysis for Resin Waste Transfer Flask and Lifting Yoke
S. Adhikari, R. Chen, T. Aziz |
| KW01/3 |
Seismic Stability Analysis af a Cask Transporter on Sloped Surfaces
S. Esfandiari, J. Strickland, B. Patton, R. Hagler |
| KW01/4 |
Dynamic Behaviour of Immersed Nuclear Fuel Storage Racks
K. Karparov, M. Jordanov |
